System and method for emulating mobile networks and related device

ABSTRACT

The present invention relates to a system and related device for emulating the behaviour of mobile networks independently from the manners of collecting data about the behaviour of the network, be they obtained through a simulation of field measurements. The system emulates the behaviour of the network during the exchange of information between terminals and uses an emulation device ( 12 ) comprising two circuit blocks ( 20, 30 ) able, respectively, the first to process the information according to time sequences corresponding to those of mobile networks, the second one to exchange information between the terminals connected to suitable interfaces ( 35, 36 ). Thanks to the architecture described above it is possible to emulate uplink and downlink functions of the mobile network, making perceptible on the terminals the effects of the behaviour of the network in the various operating conditions.

TECHNICAL FIELD

[0001] The present invention relates to a system for emulating the behaviour of a network of mobile radio apparatuses (mobile radio) and to the apparatus that allows to implement said system.

[0002] In particular, the present invention relates to an emulation system that, for given services required by a user with a terminal inserted in the mobile network, is able to represent, also visually, the result which said user can perceive as a level of service.

BACKGROUND ART

[0003] As is well known, the widespread use of mobile networks has led to a rapid expansion of the services available on such networks, such as services for accessing the Internet to use electronic mail (E-Mail) and/or Web-Browsing tools. In this context, a fundamental need for an operator who provides network services, such as Internet access services, is to verify the characteristics of the network and to dimension it correctly according to users' requirements, for instance in terms of response times. To achieve such aims, operators use, as is well known, either field measurements or simulation tools which, according to the number of apparatus, characteristics of the environment, etc., allow to obtain statistics pertaining to parameters such as:

[0004] number of serviced calls;

[0005] number of blocked calls; etc.

[0006] and to generate tables or graphs representing such parameters.

[0007] Simulation tools (simulators), in particular, which as is well known are constituted by programme packets (software) also comprise, in some case, emulation tools allowing to represent, in rough fashion, the effects that the results of the simulation induce on users' terminals.

[0008] As is well known, however, such emulation tools, being intrinsically associated to the simulators, are preferably not usable to provide punctual, instant by instant representation of ongoing phenomena in the mobile network, such as channel availability, time slot availability, etc. Known emulation tools, being of the software type and dependent on the simulators, have insurmountable limits to real time emulation of phenomena that take place in the network, since:

[0009] they preferably depend on the characteristics of the type of Work Station (hardware) that houses the software, in the sense that the speed of the hardware whereon the software programmes are installed affects perceptible results;

[0010] they preferably depend on the simulator, which is generally of the statistical type, and on the tools used to perform the simulation since the emulation is, in fact, obtained as a by-product of the simulation. Therefore, known emulation tools, due to the intrinsic limitations described above, are not able adequately to represent the behaviour of the network in real operating conditions and, in particular, are not able to represent on a terminal that is similar to the one actually utilised by the user, the result of operations, for instance, of “Web-Browsing”taking into account the various parameters that affect, instant by instant, the activity of the network itself.

DISCLOSURE OF THE INVENTION

[0011] The aim of the present invention is to provide a system that allows to emulate the effects of the behaviour of the mobile network in terms of representation of the result perceptible by the user, independently from the analysis means used to obtain said behaviour, be they simulation tools or field measures.

[0012] Another aim of the present invention is to provide an emulation device that allows to emulate the exchange of information between mobile terminal and mobile network in a manner that is independent and autonomous with respect to any other tools tasked with representing the characteristics of the network.

[0013] The aim is achieved by the system and method for emulating mobile networks and by the related device as claimed. In particular, the aim is achieved by the system according to the invention which comprises an emulation device able autonomously to process either field measurements or the results of a simulation and to manage them according to time cadences corresponding to the real times of handling the information by the analysed network.

BRIEF DESCRIPTION OF DRAWINGS

[0014] This and other characteristics of the present invention shall become readily apparent from the following description of a preferred embodiment, provided by way of non limiting example with the aid of the accompanying drawings, in which:

[0015]FIG. 1 shows a general block diagram of the system for emulating mobile networks, according to the invention;

[0016]FIG. 2 shows a block diagram of the emulation device according to the invention; and

[0017]FIG. 3 shows an example of command files able to control the emulation device of FIG. 2.

BEST MODE FOR CARRYING OUT THE INVENTION

[0018] With reference to FIG. 1, a system 10 for emulating mobile networks, according to the present invention, comprises a user terminal 15, a network terminal 16, a control terminal 14, and an emulation device (emulator) 12. The emulator 12, in accordance with the present embodiment, is connected by means of a first connection 14 a to the control terminal 14, by means of a second connection 15 a to the user terminal 15 and by means of a third connection 16 a to the network terminal 16.

[0019] The control terminal 14, for instance constituted by a known personal computer or PC, is able to exchange, in known fashion, by means of the connection 14 a, for instance constituted by a serial or RS232 connection, data and commands with the emulator 12.

[0020] In particular, the control terminal 14, in accordance with the present embodiment, is able, on the basis of application programmes developed during the design of the system 10, to:

[0021] transfer to the emulator 12 files of commands that are representative of the behaviour of the mobile network, both in user to network and in network to user transmission, and that are designed to control the operation of the emulator 12 itself, as will be described in detail hereafter;

[0022] display or store, as will be described in detail hereafter, results deriving from the activity of the emulator 12 and received by means of the connection 14 a.

[0023] The user terminal 15, constituted for instance by a known personal computer or PC, is able to exchange, in known fashion, by means of the connection 15 a, for instance constituted by an Ethernet connection, data and commands with the emulator 12.

[0024] In particular, the user terminal 15, in accordance with the present embodiment, is able, on the basis of known application programmes, through the connection 15 a, to activate functions of:

[0025] Web-Browsing, and/or

[0026] E-Mail, and/or

[0027] Video streaming, in so-called “uplink mode” and to receive in reply, in so-called “downlink mode”, the result of the activated operations, as will be described in detail hereafter.

[0028] In general, in accordance with the present invention, the user terminal 15 is able, on the basis of known application programmes, to activate functions that require an exchange of information with additional terminals and to represent on the terminal itself 15, thanks to the emulator 13, the result of such operations with an effect equivalent to the one perceptible by the user in a real mobile network.

[0029] The network terminal 16, constituted for instance by a known work station, is able to exchange, in known fashion, by means of the connection 16 a, for instance constituted by an Ethernet connection, data and commands with the emulator 12. In particular, the network terminal 16, in accordance with the present embodiment, is able, for instance, on the basis of known application programmes corresponding to those activated by the user terminal 15, to respond to the functions activated by the user terminal 15 and transmitted to the network terminal 16 by means of the emulator 12 and of the connection 16 a.

[0030] For instance, the network terminal 16 is able to respond to Web-Browsing functions activated by the user terminal 15 and to transmit the result to the emulator 12 and therefrom to the user terminal 15.

[0031] In general, the network terminal 16 is able to respond, based on known application programmes, to the functions activated by the user terminal 15 and to exchange data and command with the user terminal 15 by means of the emulator 12.

[0032] The emulator 12, one of the characteristics elements of the present invention, is interposed between the user terminal 15 and the network terminal 16 and is able to intercept and control the exchange of data and commands (data) between the user terminal 15 and the network terminal 16, dynamically emulating the behaviour of a mobile network, as is described in detail hereafter.

[0033] The emulator 12 comprises, in accordance with the present embodiment, two circuit blocks, respectively a control circuit block (control block) 20 (FIG. 1 and FIG. 2), able to control the functions of the emulator 12, and a data exchange circuit block (data block) 30, able to manage the exchange of data between the user terminal 15 and the network terminal 16.

[0034] The control block 20 comprises a control unit (CPU) 21, a read-only memory (ROM) 22, a random access memory (RAM programmes and local data) 23 and a serial interface (RS232 interface) 24, all known, interconnected in known fashion by means of a data controls and commands channel (local BUS) 27 also known.

[0035] The CPU 21, for instance of the I960 type by Intel, is able to control the operation of the emulator 12 on the basis of programmes predefined during the design step and stored in the ROM 22 or coming from the control terminal 14, by means of the serial interface 14 a.

[0036] In particular, in accordance with the present embodiment, in the ROM 22 is stored an initialisation programme able to:

[0037] create two independent and “simultaneous” processes relating, respectively, the first one to the operation of the user terminal 15 in uplink mode (uplink process, i.e. from the user terminal 15 to network terminal 16), and the second one to the operation of the same user terminal 15 in downlink mode (downlink process, i.e. from the network terminal 16 to the user terminal 15);

[0038] create a third process (control process) able to wait for commands and parameters coming from the control terminal 14, and to store them in the programme and local data RAM 23, and to manage them, as will be described in detail hereafter.

[0039] The data block 30 comprises a first Ethernet interface (user side interface) 35 and a second Ethernet interface (network interface) 36, able to be interconnected, respectively, to the connections 15 a and 16 a, a random access memory (data RAM) 33, and a data controls commands channel (data BUS) 37.

[0040] Each Ethernet interface, 35 and 36, is associated to a corresponding logic circuitry for direct access to the data RAM 33, respectively user DMA 35 a and network DMA 36 a, and is able to exchange data, directly and independently from the CPU 21, with the data RAM 33.

[0041] In particular, in accordance with the present embodiment, the user side interface 35 is able to exchange representative traffic data for service requests with a first portion of the data RAM (user RAM) 33 a and the network interface 36 is able to exchange representative traffic data in response to the service request with a second portion of the data RAM (network RAM) 33 b; the reading and writing of the data is controlled by the commands received from the CPU 21, according to the procedures described hereafter.

[0042] The control block 20 and the data block 30 are able to exchange data and commands between them by means of the CPU 21 that is interconnected both to the local BUS 27 and to the data BUS 37 and is able, in particular:

[0043] to transfer data from the data RAM 33 to the programme and local data RAM 23,

[0044] to process such data on the basis of the programmes predefined during the design step, stored in the ROM 22 or coming from the control terminal 14, and of the commands and parameters coming from the control terminal 14, by means of the serial interface 14 a, and

[0045] to transfer the data processed by the programme and local data RAM 23 to the data RAM 33.

[0046] The operation of the system 10 described heretofore is as follows.

[0047] Upon starting the emulator 12, the CPU 21, on the basis of the programmes stored in the ROM 22, generates the uplink and downlink processes and the control process.

[0048] In a second step, in accordance with the present embodiment, the control process receives from the control terminal 14, through the connection 14 a, a first file of commands representative of the behaviour of the network in uplink mode (uplink file) and a second file of commands representative of the behaviour of the network in downlink mode (downlink file).

[0049] Naturally, said command files have a shape and content that depends on the type of network to be emulated.

[0050] For the sake of the completeness of the description, hereafter is provided an example of command file 100 (FIG. 3) usable to represent a GSM-GPRS (Global System for Mobile communications—General Packet Radio Service on mobile networks) network.

[0051] As is well known, in this type of network the data traffic for the various types of service is handled (serviced) using radio carriers with predefined frequency and, within each radio carrier (FDMA access technique), by a determined “time slot” or slot (the physical channel proper) among those periodically available within the so-called time frame used on the radio interface (TDMA access technique).

[0052] In this context, if a single user requests a data transmission, a whole slot of the GSM time frame of the duration of about 5 ms is allocated to that user for at least 4 time slots, i.e. 20 ms, and this implies a determined transmission rate, for instance 9.05 kbit/s nominal for the data coding called CS-1 or 13.4 kbit/s nominal for the data coding called CS-2.

[0053] If, instead, multiple users simultaneously make a data transmission request, the single slot is shared among the same users, up to eight users, with the consequent decrease in the transmission rate, which therefore is a function of the number of users currently active in the network.

[0054] The phenomenon described above has characteristics that are clearly different from the typical phenomenon of simple voice traffic transmission, for which, as is well known, the slot of the GSM time frame assigned to the user is attributed thereto in unique and exclusive fashion until the telephone call is completed.

[0055] Based on such characteristics, typical of GSM-GPRS network, the example of command file 100, able to represent the behaviour of this type of network, comprises 8-bit binary strings 102 in which each bit is representative, if its value is 1, of the possibility of occupation of the slot by the exchanged traffic, for instance data traffic, and in which each binary string 102 is representative of the behaviour of the network with cadence of 20 ms (5 ms×4 time frames).

[0056] In the example, each binary string 102 has, associated thereto, an index 104, indicative of the time frame to be emulated; the lack of the time frame is indicative, in accordance with the present embodiment, of unavailability of the network to handle the data traffic during the missing frames.

[0057] The example of command file 100 also comprises a code 101 indicative of the type of coding using by the mobile network to be emulated.

[0058] Upon completion of the command file reception step, during which, naturally, the processes relating to network activity, i.e. the uplink and downlink processes, are kept inactive, the system 10 (FIG. 1 and FIG. 2) becomes operational and able to emulate the behaviour of the mobile network.

[0059] In particular, taking as a reference example a Web-Browsing activity and the operation of a GSM-GPRS network in uplink mode, the user terminal 15 sends a service request, i.e. a Web-Browsing command that is read by the user side interface 35 and stored directly, in the form of Ethernet packet of determined dimensions, in the user Ram 33 a by means of the uplink process that also provides, at the completion of the operation, to signal the completion of the operation to the CPU 21.

[0060] The CPU 21, by means of the control process, copies the Ethernet packet from the user RAM 33 a into the programme and local data RAM 23 and with discrete cadence of 20 ms, taking into account the configuration of the bits in the uplink files and of the associated parameters indicative, for instance, of the type of coding and of the time frames to be handled, scans the Ethernet packet until reaching or slightly exceeding the dimensions of the packet.

[0061] After completing said scanning operation, the CPU 21, through the control process, moves the content of the packet from the programme and local data RAM 23 to the network RAM 33 b and signals the completion of the control process to the uplink process so that the uplink process completes the functions in uplink mode, directly transferring the Ethernet packet from the network RAM 33 b to the network terminal 16 by means of the network interface 36.

[0062] Naturally, as is readily understandable by the person versed in the art, the transfer times from the user terminal 15 to the user RAM 33 a and those from the network RAM 33 b to the network terminal are to be deemed, thanks to the architecture of the system 10 and, in particular, of the emulator 12 as described, shorter by at least 1 or 2 orders of magnitude than the times for scanning the Ethernet packet emulated with the control process and hence to have no influence on the uplink process in emulation.

[0063] The downlink process, assumed for the sake of simplicity as the process of transferring data from the network terminal 16 to the user terminal 15, follows procedures equivalent to those described above and, as is readily apparent to a person versed in the art, is concurrent with the uplink process.

[0064] In particular, taking as a reference example a transfer activity or “download” from an Internet site to the mobile terminal in downlink mode for a GSM-GPRS network, the network terminal 16, similar in this case to an Internet site, sends one or more Ethernet packets to the network interface 36 and stores them directly in the network RAM 33 b through the downlink process which, at the completion of the operation, signals such completion of the operation to the CPU.

[0065] The CPU 21, by means of the control process, copies each packet in succession from the network RAM 33 b in the programme and local data RAM 23 and with discrete cadence of 20 ms, taking into account the configuration of the bits in the downlink file and of the associated parameter indicative, for instance, of the type of coding and of the time frame to be managed, scans in sequence each Ethernet packet until reaching or slightly exceeding the dimensions of the packet.

[0066] Once this scanning operation is completed, the CPU 21, by means of the control process, transfers the content of each packet scanned by the programme and local data RBM 23 to the user RAM 33 a and signals to the downlink process the completion of the control process for the scanned packet in such a way that the downlink process performs functions in downlink mode directly transferring the Ethernet packet scanned by the user RAM 33 a to the user terminal 15.

[0067] Naturally, such operations continue until all Ethernet packets are scanned and transferred to the user terminal by means of the user side interface 35.

[0068] In addition to the functions described, the CPU 21, by means of the control process, in accordance with the present embodiment, is able, on the basis of the programmes developed during the design of the system 10 and stored in the ROM 22 or coming from the control terminal 14, to receive and service information requests coming from the control terminal 14, such as:

[0069] quantity of bits transferred per unit of time in the various modes,

[0070] total packet transfer times, and to return such information to the control terminal 14, so that the control terminal can generate and, for example, display by means of known processing programmes, statistical curves relating to the behaviour of the network in the various conditions.

[0071] The described system 10 allows, therefore, to emulate the behaviour of a mobile network and to make the effect of such behaviour visible to the user.

[0072] The commands, for example for Web-Browsing, introduced by means of the user terminal 15, and the replies of the network terminal 16 are dynamically controlled (filtered) with command files, for instance generated with network simulators or by means of measuring instruments, in such a way as to be timed in a manner equivalent to the behaviour, instant-by-instant, of the network; in this way it is thus possible to render perceptible on the user terminal 15 an/or on the network terminal 16, in visual or equivalent manner, the delay and/or information loss and/or distortion effect introduced by the mobile network to be emulated.

[0073] In general, the system 10 and the emulator 12, as described, are able to implement the functionality of segmenting and reassembling packets, for instance of the Ethernet type, in accordance with a predefined standard or protocol; for instance in the case of the GSM-GPRS protocol the system 10 is able to reproduce the RLC-MAC (Radio Link Control-Medium Access Control) layer and to represent in realistic fashion on the user terminal 15 the delay and/or information loss and/or distortion effect introduced by the mobile network.

[0074] The system 10 has been described assuming that the emulator would be connected to a single network terminal 16, but as is readily apparent to a person versed in the art, the system 10 is also able to support configuration in which the network interface 36 is connected to a network of the Intranet type, known in itself, able to be accessed by multiple terminals or network servers able selectively to respond to a plurality of functions activated by the user terminal 15.

[0075] In the described embodiment, it was assumed that the CPU 21 manages the command files without introducing additional delay or distortion parameters, but as is readily apparent to a person versed in the art, this constraint can be easily overcome by providing additional functionalities of the control process, such as the introduction of parameters representing:

[0076] introduction of erroneous bits in the packets,

[0077] loss of packets,

[0078] duplication of packets,

[0079] modification of the order of arrival of the packets.

[0080] The system 10 has been described taking a GSM-GPRS mobile network as reference but, as is readily apparent to a person versed in the art, this system can be used for other types of network simply by adapting, on a case by case basis, the uplink, downlink and control processes, as well as the control files, to the type of network to be emulated.

[0081] The operation of the system 10 has been described taking a Web-Browsing activity or service as reference but, as is readily understood to a person versed in the art, with the system 10 and the emulator 12 according to the present invention it is also possible to emulate various types of functionalities or services, such as:

[0082] Web-Phone;

[0083] Video Telephone; etc. depending on the service needs requested by the user on each occasion.

[0084] Obvious modifications or variations are possible to the above description, in the dimensions, shapes, materials, components, circuit elements, connections and contacts, as well as in the details of the circuitry and of the construction illustrated herein and of the operating method without thereby departing from the spirit of the invention as specified by the claims that follow. 

1. System for emulating mobile networks comprising a first terminal (15) representative of a mobile apparatus able to request an exchange of information by means of a mobile network having time cadence in accordance with a predefined standard; at least a second terminal (16) representative of an apparatus able to effect said exchange of information with said mobile apparatus by means of said mobile network; characterised by an emulator device (12) interposed between said first terminal (15) and said second terminal (16) and able to control said exchange of information by dynamically applying to said information predetermined parameters with a time cadence corresponding to the time cadence of said mobile network.
 2. System as claimed in claim 1, characterised in that said first terminal (15) is able to represent in realistic fashion the behavior of said mobile network according to said predetermined parameters.
 3. System as claimed in claim 1, characterised in that .said at least a second terminal (16) is able to represent in realistic fashion the behavior of said mobile network according to said predetermined parameters.
 4. System as claimed in claim 1, characterised in that said behavior of said mobile network corresponds to functionalities in uplink and/or downlink mode.
 5. System as claimed in claim 1, characterised in that said first terminal (15) is able to carry out a Web-Browsing activity.
 6. System as claimed in claim 5 characterised in that said at least a second terminal (16) is able to carry out a data transfer or download activity in response to said Web-Browsing activity.
 7. System as claimed in claim 1, characterised by a third terminal (14) connected to said emulator device (12) and able to transfer said predetermined parameters to said emulator device (12).
 8. System as claimed in claim 7, characterised in that said third terminal (14) is able to receive from said emulator device (12) dynamically determined parameters relating to said information exchange.
 9. Method for emulating the behavior of a mobile network characterised by the steps of: requesting a network service by means of a first terminal (15) representative of a mobile apparatus able to request an exchange of information by means of a mobile network having time cadence in accordance with a predefined standard; controlling by means of an emulator device (12) the requested service by dynamically applying to said exchange of information predetermined parameters with a time cadence corresponding to the time cadence of said mobile network.
 10. Method according to claim 10, characterised by the further step of representing in realistic fashion the behaviour of said mobile network according to said predetermined parameters.
 11. Device for emulating mobile networks comprising a first interface (35) able to be connected to a first terminal (15) representative of a mobile apparatus able to request an exchange of information by means of a mobile network having time cadences in accordance with a predefined standard; a second interface (36) able to be connected to a second terminal (16) representative of an apparatus able to carry out said information exchange with said mobile apparatus by means of said mobile network; characterised by a control circuit (20) interposed between said first and said second interface (35, 36) and able to control said information exchange dynamically applying predetermined parameters to said information with a time cadence corresponding to the time cadence of said mobile network.
 12. Device as claimed in claim 11, characterised by a data transfer circuit (30) associated to said first and second interface (35, 36) and able to transfer said information independently from said control circuit (20).
 13. Device as claimed in claim 12 characterised in that said data transfer circuit (30) is associated to at least one memory (33) interposed between said first and second interface (35, 36) and able to store said information. 